Release Note for Stanford Bootcode Firmware
============================================
5755, 5755m
----------------------------
Version 3.32 ---- 6/20/07
----------------------------
1. Serial number get changed issue
The workaround for CQ#28997 in V3.31 only restores 0x164[31:28] and 0x168[7:0] after setting bit 23 of 0x7c04.
In this release, the entire 32 bits of 0x164 and 0x168 will be restored.
----------------------------
Version 3.31 ---- 6/19/07
----------------------------
1. Serial number get changed issue
Problem: CQ#28997
The serial number in offset 0x164/168 get changed after reset. As result, OS will
treat our device as new device in the system.
Cause:
Under certain corner cases, the Reserved bits of 0x164[31:28] or 0x168[7:0] may not have default value set correctly.
Workaround:
Firmware will write back the hardware default value after setting bit 23 of 0x7c04.
----------------------------
Version 3.30 ---- 1/19/07
----------------------------
1. Fixed Timer Prescale value such that the timer tick will be 1us
Problem: (CQ#27938)
Currently, one timer tick will take 2us with the default Timer Prescale value in register 6804[7:1].
Cause:
The default Timer Prescale value 0x7f has been used and has not been adjusted correctly.
Fix:
Changed the Timer Prescale value to 65 in register 6804[7:1].
Impact:
5705 and newer devices.
----------------------------
Version 3.29 ---- 12/18/06
----------------------------
1. Re-visit CQ#27733 fix
Problem: CQ#27733
When TPM is enabled, STM45PE20 NVRAM write access intermittently fails
The fixed was introduced in Version 3.28. There are two lines of code
are not needed.
Cause:
Original fix has set bit 21 of Reg 0x6804 before resetting the flash interface.
and clear the bit after resetting the flash. These two lines of code are not needed.
Fix:
Removing these two lines of code from the fix to save NVRAM space.
2. Re-visit CQ#24820, CQ#27697, CQ#27659 workaround
Enhancement:
Bootcode version 3.27 Item #1 attempts to address CQ#24820, CQ#27697, CQ#27659.
The workaround takes about 27ms to shutdown the 5755m device.
Any access to the LOM within this window can prevent proper shutdown.
This version optimized the shutdown logic and reduces the shutdown time down to less than 3ms.
3. Improved the IEEE Testing performance for 5755M
Enhancement: CQ#27630, CQ#27832
The Hybrid Trim value in the GPhy has been adjusted to improve the IEEE Testing performance.
----------------------------
Version 3.28 ---- 12/6/06
----------------------------
1. Fixed STM45PE20 NVRAM write issue
Problem: CQ#27733
When TPM is enabled, STM45PE20 NVRAM write access intermittently fails
Cause:
When TPM is enabled (TPM_EN# tied to GND) and at the PE_RST# transition
from low to high, the register 0x7028 may come up with a non-default value.
This issue is seen only when WoL is enabled. WoL routine slows down
the core clock before putting the device in WoL sleep state.
We don't see this issue with WoL disabled. This is because if WoL is
disabled, the device is put into Power Down state instead of slow core
clock state when the system transitions to a sleep state.
Fix:
To workaround this, bootcode win/lock arbitration first, then reset the
NVRAM access block. This operation should be transparent to TPM.
----------------------------
Version 3.27 ---- 12/1/06
----------------------------
1. Fixed A2 GPIO2 powerdown workaround
Problem: CQ#27697, CQ#27659
Power was not completely shutdown when GPIO2 powerdown was asserted.
Cause:
The workaround requires the PCIE link state to be L1 to work. The code
was polling for L1 link state but there are two types of L1 stats:
Normal L1 and ASPM L1. Since the code is only waiting for Normal L1 state,
if the system negotiates to ASPM L1 state, the program will loop in
infinity loop waiting for link state change.
Fix:
The code is changed to wait for both Normal L1 or ASPM L1 state to exit.
Furthermore, put a two milliseconds time out timer to prevent infinity
loop.
----------------------------
Version 3.26 ---- 11/27/06
----------------------------
1. Fixed NVRAM access bug
Problem:
Due to other project change, since version 3.24, some NVRAM access
were used incorrectly.
Cause:
NVRAM access FIRST/LAST bit can only be used in consecutive addresses.
Some random address were also using FIRST/LAST access and will return
incorrect value.
Fix:
Fixed incorrect NVRAM read to SINGLE access.
Impact:
The incorrect NVRAM read was:
1. v3.24: shared_config (NVRAM 0xdc, stored to Shared memory 0xd3c)
2. v3.25: Power_Budget2 & Power_Budget3 if Power Budget the feature
is enabled. (NVRAM 0xf4/0xf8, stored to register 0x184/0x188)
----------------------------
Version 3.25 ---- 11/27/06
----------------------------
1. Shorten PXE enable timing
Enhancement: CQ 27423
In some systems, enabling PXE and reboot the system, PXE code was not
loaded and executed. The reason for this was because the latency was too
long for bootcode to enable PXE. The enhancement was to move the Expansion
ROM initialization to earlier stage at Phase1 boot code.
2. Changed GPhy parameter setting
Ehancement: CQ 27630
With the external E-switch in some systems, the 5755M-A2 marginally failed
IEEE Testing. We needed to change the trim register to allow our device to
pass IEEE testing.
Change:
Write to phy register 0x1e with 0x0016.
Impact:
This change only applies to 5755m. There is no change for 5755.
----------------------------
Version 3.24 ---- 11/06/06
----------------------------
1. PCIE Link Polarity
Enhancement: CQ#27039, CQ#26767, CQ#27105
Apply PCIE Link polarity workaround only at hardware reset (POR or
PEReset).
----------------------------
Version 3.23 ---- 10/13/06
----------------------------
1. NVRAM parameters to set GPIO initial configuration for LOM designs
Enhancement: CQ#27111
The GPIO0 and GPIO2 configuration will be based on NVRAM setting.
Need newer b57diag version 10.04 or later to configure this setting.
Note:
No change for non-Mobile parts.
No change for NIC designs.
For Chip Revision A2, due to the powerdown workaround (CQ24820),
GPIO2 will be always set as input pin for powerdown control.
When upgrading to this version (or any future version) from any previous
version, "seprg" command should be used instead of "upgfrm". If "upgfrm"
is used, the default configuration setting will configure those GPIO pins
as input pins which is not compatible from the old default setting. The
old bootcode configure all unused GPIO pins to output and drive it to zero.
When "seprg" is used, the default configuration will be the same as older
bootcode behavior; configure to output pin and drive it zero.
----------------------------
Version 3.22 ---- 10/10/06
----------------------------
1. L1 exit latency improvement
Enhancement: CQ#27044
Improve the L1 exit latency when Clock Request is enabled.
Note:
No change for non-Mobile parts.
----------------------------
Version 3.21 ---- 10/05/06
----------------------------
1. Remove Disable Clock Request
Enhancement: CQ#26951
The clock request was disabled in version 3.20 for CQ #26629 for Mobile parts.
Change to use h/w default setting.
----------------------------
Version 3.20 ---- 09/15/06
----------------------------
1. Disable Clock Request
Enhancement: CQ#26629
The clock request enabled feature is not fully tested. This feature needs
to be disabled for RC 10.0 release.
Note:
The ClockReq is automatically disabled by h/w on a non-Mobile parts; therefore,
this change does not affect non-Mobile parts.
2. Link speed issue
Enhancement: CQ26652
We have compatibility issue with Intel NIC Intel Pro/1000MT based LOM
(NDIS5.1 8.5.14, Auto detect for Speed/Duplex parameter, Windows XP
Professional SP2 O/S). The symptom shows when WoL is disabled and there
is no management firmware loaded, after first time power up, the link
partner settles at speed 10H where our device settle at 1000F after the
link negotiation. To workaround the issue, bootcode is changed to use
different method to initialize the phy.
Impact:
This issue exists not only in this device but all NetXtreme I products.
3. IPMI/ASF traffic fails when LOM is disabled by BIOS
Problem: CQ#25290
The IPMI/ASF traffic does not work when LOM is disabled by BIOS.
Cause:
With certain platform, when the device is disabled by BIOS, PERST# is
asserted and refclk is removed. Under this condition, the workaround
implemented for unstable refclk in version 3.52 logic will kick in
and cause bootcode to wait for stable refclk. Since the clock will
never be available, hence, bootcode is stuck in forever loop and cannot
proceed to load IPMI firmware.
Fix:
Added one second timeout when waiting for stable refclk. The bootcode
will advance when the timeout expires.
Impact:
Since there is no refclk is available; furthermore, the PERST# is
asserted under this condition, the PCI domain registers become not
accessible. Since bootcode has many PCI domain register access after
exiting the loop, all those register access become invalid and will
timeout causing further delay to load IPMI code. The estimated delay is
about 3 to 4 seconds compare to normal boot under this particular
condition. (There is no impact and no delay under normal condition.)
----------------------------
Version 3.19 ---- 6/26/06
----------------------------
1. Enabled double Ack bug ASIC fix
Problem: CQ25115
LAN traffic may stop under heavy chariot stress in conjunction w/ management SW
enabled
Cause:
For 5755 a race condition inside the HW could cause the firmware to read bogus
data from internal chip registers. The bogus data could cause the firmware to
issue a GRC reset what causes the HW to return back to its default state. In its
default state the 'memory enable bit' will be cleared and the Host device driver
will no longer be able to communicate with the HW, what causes the LAN traffic
to stop.
Fix:
The 5755 has build-in technology that addresses this underlying HW issue. All
that is required is for firmware to enable this HW fix known as the "double
ACK issue" (CQ9987).
Note:
It should be noted that this firmware fix goes along with a Windows and Linux
device driver change
----------------------------
Version 3.18 ---- 6/15/06
----------------------------
1. Implemented workaround for Low_Power_Mode Input Pin
Problem: CQ#24820
Stanford TPM Block Gets Reset upon Deassertion of Low_Power_Mode Input Pin
Cause:
Hardware behavior
Fix:
Using GPIO2 as Low_Power_Mode Input Pin and use firmware to shutdown the
device when deasserted and power-up the device when it it asserted.
Impact:
Only Stanford mobile device, chip revision A2, and LOM configuration will
take effect. All others are unaffected by this change.
If a NIC card is configured as LOM and the GPIO2 is floating, the device will
be shut down immidiately. In that case, GPIO2 should be shorted to gound to
bring up the device.
2. Wrong revision.
Problem:
The chip revision posted in Shared memory 0xd2c was incorrect.
Cause:
Bug introduced in version 3.17. The metal revision mask was changed
by other project incorrectly.
Fix:
Changed back to the correct mask.
Impact:
Any revision sensitive routines or workaround was affected by this.
3. Turn off Cable Sense issue
Problem:
Once the Cable Sense was turned on, it could not be turned off until
the next power cycle to the chip.
Cause:
The Cable Sense mode was cleared on by POR only. Since the bootcode only
turns cable sense on when it is enable; assuming any reset would clear
Cable Sense configuration, it was not clearing the configuration until
the next power cycle.
Fix:
Not just turn on but also turn off the configuration according to the
NVRAM setting.
----------------------------
Version 3.17 ---- 5/15/06
----------------------------
1. Change phy settings for better link detection.
Enhancement: CQ24525
Shut off SMDSP clock after programming the Tab registers.
2. Enabled second phase fastboot feature
Enhancement:
Only the first phase bootcode NVRAM loading is bypassed with the older
bootcodes. Starting with this version, the second phase is also pre-
reserved and NVRAM code loading is bypassed.
Impact:
Since the bootcode is no longer reload from NVRAM, the boot time will be
much faster. Upon reset, there will be only few words of configuration
NVRAM access.
----------------------------
Version 3.16 ---- 4/5/06
----------------------------
1. Removed reg. 0x7d00 access
Problem: CQ#23880
5755 LOM disappears after WoL from S5
Cause:
Due to the document error, bit 18 of register 0x7d00, CQ#11011 fix enable
bit logic was reversed. When bootcode writes to this register, writing 0
and disabled the ASIC fix.
Fix:
Removed 0x7d00 access and use hardware default.
Impact:
Since the hardware will automatically shutdown PCIE transmitter and receiver
in D3 state; therefore, there is no power consumption change in normal OS
shutdown/hibernate.
When the system was powered down in D0 state, such as ungraceful/DOS
shutdown, we will see more power consumption. From the lab measurement,
we observed the current draw increased from 172mA to 236mA.
----------------------------
Version 3.15 ---- 3/07/06
----------------------------
1. VPD-R checksum error
Problem: Related CQ#23565, CQ#23566
VPD-R checksum was incorrect
Cause:
Checksum was calculated from VPD-R to the end of VPD-R region; however,
the specification indicates that Checksum should be calculated from the
offset zero.
Fix:
Corrected the checksum
----------------------------
Version 3.14 ---- 2/17/06
----------------------------
1. Fixed revision issue
Problem: CQ#23294
For all B step revision were reported as A step revisions
Cause:
Revision now is reading from register 2018 instead of 68; However,
there was a coding error, shifted metal revision incorrectly.
Fix:
Corrected the error
Impact:
Since we don't have B step silicon yet, we should not see any problems
related to this issue.
2. Initialized Cardbus pointer register
Enhancement: CQ#23431
Since Cardbus support is no longer a requirement, in order to pass
the plug-fest compliance test, we write zero to register 0x28 to disable
cardbus feature.
----------------------------
Version 3.13 ---- 2/08/06
----------------------------
1. Enable PEReset Mask
Problem:
CQ#23039:
On certain systems, when entering S5 state (with WoL enabled), the
LOM current draw on the 1.2V rail can fluctuate between ~90mA and
~150mA from shutdown to shutdown.
CQ#22684:
On certain systems (with WoL enabled), the 5754/A1 LOM may disappear
during repeated S5 Power-Cycle tests.
Cause:
As part of the bootcode f/w logic, the NIC f/w will make access to
certain registers (0x00-0xff and 0x7d00-0x7fff) when the firmware
detected that the Vmain power goes low. Due to CQ23039, the register
bit that the firmware used for detecting the "Vmain power state" can
also toggles between logical '0' and '1', and this leads to f/w to not
able to make reliable read/write access to the registers (0x00-0xff and
0x7c00-0x7fff), which ultimately causes bad behaviors that is described
in CQ22684.
Fix:
Firmware now enables the PEReset Mask register bit (0x68a4[16]=1). By
enabling this register bit, the chip exits the reset state after the
current fluctuation become stabilized, which eliminates the toggling of
the "Vmain power" detection register bit, which ultimately enables
successful access to the register (0x00-0xff, 0x7c00-0x7fff) by the f/w.
Impact:
Fixes CQ#23039 and CQ#22684.
2. Restored 0x7d00 access
Enhancement:
Since we were able to root cause the reason why we could not access 0x7d00
correctly in #1 change, this version is putting back the 0x7d00 access
using absolute write. This is undoing the change in version 3.12, #2.
----------------------------
Version 3.12 ---- 1/24/06
----------------------------
1. Enabled ASIC fix for tx Ethernet packet corruption on late collision
Enhancement: CQ#22908, CQ#14561, CQ#14521
Since the ASIC is fixed and verified by ASIC team, we are enabling the
fix in this version.
2. Removed all register 0x7d00 access
Problem: CQ#22832
Accessing register 0x7d00 can cause the corruption of content when
reference clock was not stable in some system.
Cause:
When the device was put into D3 power state, due to the clock issue, the
PCIE registers become not accessible. If an access to register may cause
the content corruption.
Fix:
Removed all 0x7d00 register access.
Impact:
Since the hardware will automatically shutdown PCIE transmitter and receiver
in D3 state; therefore, there is no power consumption change in normal OS
shutdown/hibernate.
When the system was powered down in D0 state, such as ungraceful/DOS
shutdown, we will see more power consumption. From the lab measurement,
we observed the current draw increased from 172mA to 236mA.
3. Changed revision reading
Problem:
CPU reads incorrect silicon revision id in D3 power state.
Cause:
In D3 power state, except OOB, the PCI/PCIE registers are not accessible.
All reads returns zero. Because of this, the read is not reliable.
Fix:
Instead of reading from register 0x68, the code is changed to read the
revision id from register 0x2018. The register 0x2018 is available at all
time.
----------------------------
Version 3.11 ---- 12/22/05
----------------------------
1. Enabled Slow Clock for Cable Sense mode
Enhancement:
Enabled slow clock mode for cable sense so when cable is unplug, we
can conserve more power.
----------------------------
Version 3.10 ---- 12/09/05
----------------------------
1. Force PCIE link polarity
Problem: CQ#22173,CQ#22176,CQ#22178,CQ#22180,CQ#22254
In some platform, the PCIE link polarity comes up incorrectly.
Cause:
ASIC could not handle all cases correctly.
Fix:
Wait until PCIE link comes up. Then based on the link polarity status
detected by ASIC polarity auto detect, firmware will then force the
PCIE link to the correct polarity.
2. Enable refclock auto switching
Problem:
The workaround in version 3.07, #1 is not stable. CPU could read "good"
link indication without REFCLK.
Cause:
Without clock, the interface can timeout and return anything left in
the data bus.
Fix:
Enable auto clock switching. When enabled, the clock will automatically
switched to internal clock when there is no ref. clock available.
3. Enable clock request for A1 or new revision
Enhancement:
The clock request was disabled in version 3.06, #3 for A0 issue. Starting
this version, the clock request will be enabled back for A1 or newer devices.
----------------------------
Version 3.09 ---- 11/14/05
----------------------------
1. CQ14315
Problem: CQ14315
If L0s is enabled on the BRCM chip a "yellow bang", or a system hang
condition can occur.
Cause:
During the L0s to L0 exit transition, symbol lock can be lost if the
system reference clock has not fully stabilized what leads the PCI-E
link training state machine to go through the "detect" state. Going
through "detect" causes an internal reset to the BRCM chip what causes
"yellow bang" and/or a system hang condition based on the chipset
configuration.
Fix:
1. Change Serdes RX Timer from 768 ns to 2 uS to make sure the
Serdes CDR is stable before it sends data to the Physical Layer.
2. Increase FTS Count from 1uS to 2.25 uS to avoid intermittent GRC
Reset when L0s is enabled.
Since RX Timer value and FTS Count change only needed before PCIE link
training, bootcode will initialize those values and retrain the PCIE
link during cold reset only. When driver reset, this workaround is
bypassed to avoid PCIE link retrain.
Impact:
Increasing the amount of FTS required to transition from L0s to L0,
will impact the overall, top performance.
2. Enable Frequency Multiplier only for the Mobile Device
Enhancement:
ASIC team has verified this enhancement in ASIC; therefore, this
version enables the ASIC enhancement for Frequency Multiplier.
Impact:
This feature is only available for M-part.
3. Fixed WoL was not working issue.
Problem: CQ#14614
WoL was not working on OOB case.
Cause:
Version 3.07 (#1) added workaround for platforms that show an unstable
PCIE refclk during power up. Nevertheless, there is a limitation to
this workaround as to where it requires VMAIN to be present. In systems
where there is no VMAIN present and there is no PCI-E REFCLK at all for
the cases outlined above the bootcode will loop forever, therefore not
enabling WoL.
Fix:
Added a condition to the "unstable PCI-E Refclk" workaround to apply
this fix only when there is VMain present. In cases where there is no
VMAIN present, the boot code will no longer check/wait for a "stable
PCI-E Refclk" before continuing.
4. Fixed Link Histogram Issue.
Problem:
In DVT testing, Link histogram results seemed to be worsen in bootcode
version 3.08.
Cause:
The change in version 3.08, item#2, removes all Gphy workaround.
The workaround included hybrid bias change, adc bias change, and pll
startup bandwidth change. The hardware fix still have incorrect PLL
startup bandwidth value. By removing the workaround, the sympton has
showed up.
Fix:
Added the adjustment for the PLL startup bandwidth.
----------------------------
Version 3.08 ---- 10/18/05
----------------------------
1. Fixed Cable Sense mode
Problem:
The Cable Sense mode was initialized incorrectly
Cause:
Initialized to wrong register.
Fix:
Fixed the error
2. Not to apply poor BER performance workaround
Problem:
The workaround for poor BER (Bit Error Rate) with cable length 70m or less
was causing the problem.
Cause:
For 5755/5755m, the BER problem has been fixed in ASIC already. If the
workaround was applied, by changing hybrid bias current, would yield the
unwanted current.
Fix:
Removed the workaround
3. Move GPIO initialization to Phase1 code
Enhancement:
Originally, activating VAUX power was done in phase 2 bootcode.
However, once driver waited for phase1 signature, driver may start to
configure GPIO for WoL setting. The 2nd phase GPIO initialization may
destroy driver's setting.
This problem was worked around by driver by waiting for phase2 bootcode
to be loaded before the GPIO initialization. This change does not
affect anything since driver already have the work around.
----------------------------
Version 3.07 ---- 9/30/05
----------------------------
1. Worked around unstable PCIE refclk issue
Problem:
Device does not come up on some machine platform. (bootcode v3.05)
Cause:
In some particular system, the PCIE refclk was not stable for a long
period of time. Accessing PCI config. space registers, 0x7d00 and
0x7e00 block registers relying on this clock. When the clock is not
available, all access to those registers will timeout and read will
return zero.
The read-modify-write instruction performed at 0x7d00, reads zero
(due to unavailable clock and stall for a long time), then clock
become available (due to long timeout delay) and write modified zero
value back to register. As result, destroyed the register content.
With value zero in 0x7d00 shuts down PCIE bus and hence the device
become invisible from the bus.
The fix in bootcode version 3.06, changing read-modify-write to
absolute write is not good because basically that write does not go
through. (Due to unavailable refclk) In this case, it worked
because the hardware default value was good enough to bring up the
device. Since all access performed to 0x7d00, 0x7e00, and
PCI config. space is invalid until the clock is available, many
initialization may not be done correctly; or at least it may reads
incorrect revision ID.
Therefore, to ensure the code is executed properly, we need to ensure
the clock is there first before proceeding with initialization.
Fix:
Put a wait loop until refclk is stable before move on to initialization
process.
2. Enable L1 support advertizement for M part
Enhancement:
This version enables Link Capability L1 support for M part.
----------------------------
Version 3.06 ---- 9/29/05
----------------------------
1. Fixed PCIE Serdes shutdown routine
Problem: CQ#14165
There still a time bootcode will write 0 to PCIE Serdes control register.
Cause:
There is a time the register is not readable. Using read-modify-write
method may cause reading wrong value and write clear all necessary control
bits.
Fix:
Changed to absolute write after reset to initialize PCIE Serdes control
register.
2. Load ASF with Driver reset
Enhancement:
This is the 2nd phase of rev. A0 workaround. Allowing ASF code to be
loaded with driver reset.
3. Disable ClockReq
Problem:
The chip will get a GRC_RESET when going from D3Hot to D0 state
Cause:
When ClockReq is enabled, the chip will get a GRC_RESET when going
from D3Hot to D0 state. The hardware default for mobile part is enabled.
Fix:
Disable ClockReq for mobile part.
Note:
The ClockReq is automatically disabled by h/w on a non-M parts; therefore,
this change does not affect non-M parts.
----------------------------
Version 3.05 ---- 9/22/05
----------------------------
1. Fixed PCIE Serdes shutdown routine
Problem:
When the bootcode was trying to shutdown device, bootcode has disabled
PCIE transmitter and receiver; however, other bits in the same register
was destroyed.
Cause:
Absolute write routine was used.
Fix:
Changed to read-modify-write.
----------------------------
Version 3.04 ---- 9/21/05
----------------------------
1. Enabled GPIO
Problem:
By hardware default, GPIO function was disabled. Because of
this, all GPIO function was not working. This was result in NIC
mode WoL function not to work or system hang for some machine.
Cause:
Stanford requires firmware to enable GPIO in order to use it.
Fix:
Enabled GPIO function
----------------------------
Version 3.03 ---- 9/20/05
----------------------------
1. Fixed the version 3.02 workaround
Problem:
After posting negate of drv/firmware handshake signature, there is still
a small window of time that register read could be corrupted.
Cause:
The second phase of bootcode still accessing NVRAM. (To check/load
Management firmware)
Fix:
Moved the signature posting right before entering the service loop.
In case of management firmware is enabled, no negate of signature is
posted. (It will be the management firmware's responsibility to post
the signature)
----------------------------
Version 3.02 ---- 9/16/05
----------------------------
1. Applied ASIC bug workaround
The following is only applied to A0 revision
a. Post negate of drv/firmwaqw handshake signature at the end of 2nd phase
bootcode loading.
b. Disabled VPD read/write for driver reset. (It returns garbage if read)
c. Disabled ROM service for driver reset.
d. Disabled ASF/IPMI/UMP firmware for driver reset.
e. Added firmware suspension function.
f. A value 0 is read after NVRAM access.
----------------------------
Version 3.01 ---- 9/14/05
----------------------------
1. Removed Nvram config1 initialization
Problem:
There is address lockout error
Cause:
Per design, Nvram config1 register (0x7014) modification is not allowed
when address lockout feature is enabled. The original firmware was
overriding this register to adjust the NVRAM clock access speed. When
write to config1 register is attempt, address lockout error 9 was posted
(at reg. 0x7000 [31:28])
Fix:
Removed the config1 register initialization.
----------------------------
Version 3.00 ---- 9/13/05
----------------------------
1. Initial official release
Problem:
2nd phase bootcode did not run.
Cause:
The stack pointer was initialized to 0x20000. For Stanford, the mbuf memory
size only has 48k, 0x10000-0x1c000; therefore, the stack pointer should
be initialized to 0x1c000 instead of 0x20000.
Fixed:
Fixed the stack pointer
----------------------------
Version 2.07 ---- 6/2/05
----------------------------
1. Changed NVRAM pin straps
Problem:
Stanford pin strap is not compatible with Baxter.
The pin strap mapping needed to be changed.
Fix:
Changed the bin strap to Stanford.
Note: Due to b57diag, the version has been skipped from 2.01 to 2.07. (B57diag treat
version 2.07 smaller number as an old version doesn't support directory structure.)
----------------------------
Version 2.01 ---- 6/2/05
----------------------------
1. Firmware does not program revision register 0x8.
2. The indirect access address registers, 0x78/0x7c will not be cleared by firmware.
3. Set bit 23 of 0x7c04 after programming MAC address 0x410/0x414 to prevent future
change of register 0x164/0x168.
4. The link capability, register 0xdc is not touched.
----------------------------
Version 2.00 ---- 4/1/05
----------------------------
1. Initial engineering release
This branch of built of Baxter v3.10.
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